Two-dimensional crystals /

This is a self-contained, tutorial introduction to two-dimensional crystal science and technology. Including concise descriptions of experimental methods and results from fundamental theoretical concepts, this book covers a broad range of two-dimensional structures--from overlayers to freestanding f...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: L�i�uks�i�utov, I. F. (Igor� Fridrikhovich)
Otros Autores: Naumove�t�s, A. G. (Anton Grigor�evich), Pokrovski�i, V. L. (Valeri�i Leonidovich)
Formato: Electrónico eBook
Idioma:Inglés
Ruso
Publicado: Boston : Academic Press, �1992.
Temas:
Crystals.
Cristaux.
crystal (material by form)
SCIENCE > Physics > Crystallography.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Two-Dimensional Crystals; Copyright Page; Table of Contents; Preface; Introduction; Chapter 1. Order and Disorder in Two-Dimensional Crystals; 1.1. Two-Dimensional Crystals: Experimental Examples; 1.2. Structure of Two-Dimensional Crystals and Substrate; 1.3. Order in Two-Dimensional Crystals at Finite Temperature; 1.4. Phase Transitions; Chapter 2. Experimental Methods; 2.1. Atomic Structure; 2.2. Electronic Properties; 2.3. Magnetic Properties; 2.4. Lattice Dynamics, Diffusion, and Film Growth Mechanisms; 2.5. Thermodynamic Characteristics
  • Chapter 3. Atomic Structure of Two-Dimensional Crystals (Experimental Data)3.1. Interaction of Adsorbed Particles; 3.2. Conditions for Formation of 2D Lattices; 3.3. Adlayers on the Basal Plane of Graphite; 3.4. Gases on the (100) Plane of Magnesium Oxide; 3.5. Films on the Close-Packed Planes of Metals; 3.6. Adlayers on Metal Planes with Furrowed Corrugation; 3.7. Adlayers on Metal Surfaces with Loose Corrugation; 3.8. Reconstructed Surfaces; 3.9. Overlayers on Semiconductor Surfaces; Chapter 4. Free Two-Dimensional Crystals; 4.1. Dislocation-Mediated Melting
  • 4.2. Two-Dimensional Liquid Crystals4.3. Free Two-Dimensional Crystals. Experimental Results; 4.4 Derivation of Some Formulae; Chapter 5. Commensurate Crystals; 5.1. Interaction of Adatoms and Lattice Symmetry; 5.2. Universality Classes; 5.3. Two-Dimensional Statistical Models and Their Experimental Realizations; 5.4. Striped Superstructures at Finite Temperature; 5.5. Phase Diagrams; Chapter 6. Incommensurate Crystals at T = 0; 6.1. Resonance Approximation; 6.2. Soliton Lattice; 6.3. Spectrum of Small Oscillations; 6.4. Lattice Discreteness Effects; 6.5. Pinning of the Soliton Lattice
  • 6.6. Orientational Epitaxy6.7. Two-Dimensional Models of Incommensurate Crystals; 6.8. Elastic Substrate; Chapter 7. Thermodynamics of Two-Dimensional Incommensurate Crystals; 7.1. Collisions of Solitons; 7.2. Melting of the Striped Soliton Lattice; 7.3. Two-Dimensional Soliton Lattices; 7.4. Experimental Investigations of Incommensurate Crystals; Chapter 8. Solitons as Fermions; 8.1. Quantum Fluctuations in a One-Dimensional Incommensurate Crystal; 8.2. Transfer Matrix and Thermodynamics of a Two-Dimensional Incommensurate Crystal
  • 8.3. Dislocations and the C-I Transition in a Uniaxial Crystal8.4. Thermal Depinning of Soliton Structures; Chapter 9. Equilibrium Shape of a Crystal and the Roughening Transition; 9.1. Equilibrium Shape of a Crystal; 9.2. The Roughening Transition; 9.3. Roughening Transition and Equilibrium Crystal Shape Near the Densely Packed Surfaces; 9.4. Phase Transitions on the Vicinal Surfaces; 9.5. Equilibrium Shape of Crystals over a Wide Range of Angles; Chapter 10. Two-Dimensional Crystals and Surface Defects; 10.1. Defects and Order in Commensurate Two-Dimensional Crystals

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